摘要:
It is an object to provide an organic EL display device having the organic transistor of less performance deterioration, a method of manufacturing the organic EL display device, an organic transistor, and a method of manufacturing the organic transistor.The organic EL display device P1 covers the organic transistor 50 and has a protection film 20 protecting the organic transistor. Between the protection film 20 and the surface of the organic transistor 50, a conductive layer (an negative electrode of the organic EL element 100) 18 having conductivity is formed and an insulation film 72 insulating the surface of the organic transistor 50 and the conductive layer 18 is formed on the side of the surface of the organic transistor 50 but the conductive layer 18.
摘要:
An active matrix drive organic EL display panel comprising an organic TFT with a configuration that prevents the occurrence of current leak, and a manufacturing method thereof are proposed. The organic EL display panel comprises: a substrate; an organic EL element comprising in order from the substrate, a first display electrode, an organic functional layer and a second display electrode; and an organic TFT for driving and controlling the organic EL element comprising in order from the substrate a gate electrode, a gate insulation film, source/drain electrodes, and an organic semiconductor layer. The organic EL display panel further comprises: a first bank having a first window section for demarcating a light emitting region on which the organic functional layer is provided on the first display electrode and a second window section demarcating a transistor region on which the organic semiconductor layer is provided between the source/drain electrodes; and a second bank located in the perimeter of the second window section and protruding in a direction that intersects with the main surface of the substrate.
摘要:
An active matrix drive organic EL display panel comprising an organic TFT with a configuration that prevents the occurrence of current leak, and a manufacturing method thereof are proposed. The organic EL display panel comprises: a substrate; an organic EL element comprising in order from the substrate, a first display electrode, an organic functional layer and a second display electrode; and an organic TFT for driving and controlling the organic EL element comprising in order from the substrate a gate electrode, a gate insulation film, source/drain electrodes, and an organic semiconductor layer. The organic EL display panel further comprises: a first bank having a first window section for demarcating a light emitting region on which the organic functional layer is provided on the first display electrode and a second window section demarcating a transistor region on which the organic semiconductor layer is provided between the source/drain electrodes; and a second bank located in the perimeter of the second window section and protruding in a direction that intersects with the main surface of the substrate.
摘要:
[Problems] To perform predetermined processing such as annealing and coating application of a semiconductor material with high accuracy on a number of semiconductor formation areas formed over a wide region on a surface of a substrate having elasticity such as a plastic substrate even when the substrate expands and contracts.[Solving Means] A semiconductor substrate manufacture apparatus includes: a tracking device (33) having a light-emitting portion (34) which applies light to a substrate surface during tracking, a light-receiving portion (35) which receives the light applied by the light-emitting portion (34) and reflected by the substrate surface, and a position detecting portion (36) which detects the positions of the semiconductor formation areas on the substrate based on the spectrum or intensity of the received light; and a semiconductor processing device for performing the predetermined processing on each of the semiconductor formation areas based on position information from the tracking device (33). For example, an annealing light application device (37) or an inkjet nozzle (41) is used as the semiconductor processing device.
摘要:
A production process for making an electronic circuit substrate comprising: a patterning step of forming a respectively anodically oxidizable conductor pattern and distribution pattern connected to the conductor pattern on a substrate; and an anodic oxidation step of generating an oxide film from the conductor pattern and the distribution pattern by contacting an electrolyte solution with the conductor pattern and the distribution pattern and carrying out anodic oxidation while applying current thereto, the patterns serving as anodes, wherein the width or film thickness of the distribution pattern is at least partially set so that an insulator portion is formed in the anodic oxidation step in which an oxide film formed on one of the side walls of the distribution pattern is integrated with an oxide film formed on the other side wall.
摘要:
There is provided a subpixel that is free from an increase in its overall size and can ensure a large size of its display portion, even when easily producible and inexpensive organic or amorphous Si thin film transistors are used. The subpixel includes one display portion and a plurality of thin film transistors for driving the display portion, wherein the plurality of thin film transistors are arranged such that their channels are in parallel to each another.
摘要:
A production process for making an electronic circuit substrate comprising: a patterning step of forming a respectively anodically oxidizable conductor pattern and distribution pattern connected to the conductor pattern on a substrate; and an anodic oxidation step of generating an oxide film from the conductor pattern and the distribution pattern by contacting an electrolyte solution with the conductor pattern and the distribution pattern and carrying out anodic oxidation while applying current thereto, the patterns serving as anodes, wherein the width or film thickness of the distribution pattern is at least partially set so that an insulator portion is formed in the anodic oxidation step in which an oxide film formed on one of the side walls of the distribution pattern is integrated with an oxide film formed on the other side wall.
摘要:
In a rolling method applied to a multi-roll strip rolling mill composed of not less than four rolls, one of the zero point of the roll positioning devices and the deformation characteristic of the strip rolling mill or alternatively both the zero point of the roll positioning devices and the deformation characteristic of the strip rolling mill are found from a measured value of the thrust counterforces in the axial direction of the roll acting on at least all the rolls except for the backup rolls in the kiss-roll tightening state and also from a measured value of the roll forces of the backup roll acting on the backup roll chocks of the top and the bottom backup roll in the vertival direction. According to the thus obtained zero point of the roll positioning devices or the deformation characteristic of the strip rolling mill, the setting and control of the roll forces is executed when rolling is carried out.
摘要:
[Problems] To provide an organic transistor which can achieve a reduced leak current from a gate electrode.[Solving Means] An organic transistor including a substrate 1, a pair of a source electrode 4 and a drain electrode 5, an organic semiconductor layer 6 provided between the source electrode 4 and the drain electrode 5, and a gate electrode 2 provided in association with the organic semiconductor 6 with a gate insulating layer 3 interposed therebetween, wherein the gate insulating layer 3 has a stacked structure including at least an organic insulating layer 3a and an inorganic barrier layer 3b.
摘要:
There are provided an organic semiconductor device and a method of manufacturing the same, which make it possible to easily form a dense polymeric insulating film with high insulating properties as a gate insulating film, without using a vacuum apparatus, and to dispense with the step of patterning the gate insulating film. Gate electrodes 12 are formed on a glass substrate 11. Then, poly(1,4-bis(2-methylstyryl)benzene) (bis-MSB) is dissolved in benzonitrile containing 0.1 mol/l of tetrabutylammonium tetrafluoroborate, whereafter the glass substrate 11 having the gate electrodes 12 formed thereon is soaked in the solution to thereby form dense poly(bis-MSB) films by electrochemical polymerization.